/*
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SETTINGS MODULE
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Copyright (C) 2016-2018 by Xose Pérez <xose dot perez at gmail dot com>
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*/
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#include <EEPROM.h>
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#include <vector>
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#include "libs/EmbedisWrap.h"
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#include <Stream.h>
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#include "libs/StreamInjector.h"
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StreamInjector _serial = StreamInjector(TERMINAL_BUFFER_SIZE);
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EmbedisWrap embedis(_serial, TERMINAL_BUFFER_SIZE);
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#if TERMINAL_SUPPORT
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#if SERIAL_RX_ENABLED
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char _serial_rx_buffer[TERMINAL_BUFFER_SIZE];
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static unsigned char _serial_rx_pointer = 0;
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#endif // SERIAL_RX_ENABLED
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#endif // TERMINAL_SUPPORT
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bool _settings_save = false;
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// -----------------------------------------------------------------------------
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// Reverse engineering EEPROM storage format
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// -----------------------------------------------------------------------------
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unsigned long settingsSize() {
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unsigned pos = SPI_FLASH_SEC_SIZE - 1;
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while (size_t len = EEPROM.read(pos)) {
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pos = pos - len - 2;
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}
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return SPI_FLASH_SEC_SIZE - pos;
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}
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// -----------------------------------------------------------------------------
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unsigned int _settingsKeyCount() {
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unsigned count = 0;
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unsigned pos = SPI_FLASH_SEC_SIZE - 1;
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while (size_t len = EEPROM.read(pos)) {
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pos = pos - len - 2;
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len = EEPROM.read(pos);
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pos = pos - len - 2;
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count ++;
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}
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return count;
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}
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String _settingsKeyName(unsigned int index) {
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String s;
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unsigned count = 0;
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unsigned pos = SPI_FLASH_SEC_SIZE - 1;
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while (size_t len = EEPROM.read(pos)) {
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pos = pos - len - 2;
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if (count == index) {
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s.reserve(len);
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for (unsigned char i = 0 ; i < len; i++) {
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s += (char) EEPROM.read(pos + i + 1);
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}
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break;
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}
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count++;
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len = EEPROM.read(pos);
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pos = pos - len - 2;
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}
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return s;
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}
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std::vector<String> _settingsKeys() {
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// Get sorted list of keys
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std::vector<String> keys;
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//unsigned int size = settingsKeyCount();
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unsigned int size = _settingsKeyCount();
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for (unsigned int i=0; i<size; i++) {
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//String key = settingsKeyName(i);
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String key = _settingsKeyName(i);
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bool inserted = false;
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for (unsigned char j=0; j<keys.size(); j++) {
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// Check if we have to insert it before the current element
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if (keys[j].compareTo(key) > 0) {
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keys.insert(keys.begin() + j, key);
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inserted = true;
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break;
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}
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}
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// If we could not insert it, just push it at the end
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if (!inserted) keys.push_back(key);
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}
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return keys;
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}
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// -----------------------------------------------------------------------------
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// Commands
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// -----------------------------------------------------------------------------
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void _settingsHelpCommand() {
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// Get sorted list of commands
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std::vector<String> commands;
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unsigned char size = embedis.getCommandCount();
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for (unsigned int i=0; i<size; i++) {
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String command = embedis.getCommandName(i);
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bool inserted = false;
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for (unsigned char j=0; j<commands.size(); j++) {
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// Check if we have to insert it before the current element
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if (commands[j].compareTo(command) > 0) {
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commands.insert(commands.begin() + j, command);
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inserted = true;
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break;
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}
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}
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// If we could not insert it, just push it at the end
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if (!inserted) commands.push_back(command);
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}
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// Output the list
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DEBUG_MSG_P(PSTR("Available commands:\n"));
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for (unsigned char i=0; i<commands.size(); i++) {
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DEBUG_MSG_P(PSTR("> %s\n"), (commands[i]).c_str());
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}
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}
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void _settingsKeysCommand() {
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// Get sorted list of keys
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std::vector<String> keys = _settingsKeys();
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// Write key-values
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DEBUG_MSG_P(PSTR("Current settings:\n"));
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for (unsigned int i=0; i<keys.size(); i++) {
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String value = getSetting(keys[i]);
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DEBUG_MSG_P(PSTR("> %s => %s\n"), (keys[i]).c_str(), value.c_str());
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}
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unsigned long freeEEPROM = SPI_FLASH_SEC_SIZE - settingsSize();
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DEBUG_MSG_P(PSTR("Number of keys: %d\n"), keys.size());
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DEBUG_MSG_P(PSTR("Free EEPROM: %d bytes (%d%%)\n"), freeEEPROM, 100 * freeEEPROM / SPI_FLASH_SEC_SIZE);
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}
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void _settingsFactoryResetCommand() {
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for (unsigned int i = 0; i < SPI_FLASH_SEC_SIZE; i++) {
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EEPROM.write(i, 0xFF);
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}
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EEPROM.commit();
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}
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void _settingsDumpCommand(bool ascii) {
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for (unsigned int i = 0; i < SPI_FLASH_SEC_SIZE; i++) {
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if (i % 16 == 0) DEBUG_MSG_P(PSTR("\n[%04X] "), i);
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byte c = EEPROM.read(i);
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if (ascii && 32 <= c && c <= 126) {
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DEBUG_MSG_P(PSTR(" %c "), c);
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} else {
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DEBUG_MSG_P(PSTR("%02X "), c);
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}
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}
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}
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void _settingsInitCommands() {
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#if DEBUG_SUPPORT
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settingsRegisterCommand(F("CRASH"), [](Embedis* e) {
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debugDumpCrashInfo();
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debugClearCrashInfo();
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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#endif
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settingsRegisterCommand(F("COMMANDS"), [](Embedis* e) {
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_settingsHelpCommand();
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("EEPROM.DUMP"), [](Embedis* e) {
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bool ascii = false;
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if (e->argc == 2) ascii = String(e->argv[1]).toInt() == 1;
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_settingsDumpCommand(ascii);
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DEBUG_MSG_P(PSTR("\n+OK\n"));
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});
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settingsRegisterCommand(F("ERASE.CONFIG"), [](Embedis* e) {
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DEBUG_MSG_P(PSTR("+OK\n"));
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resetReason(CUSTOM_RESET_TERMINAL);
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ESP.eraseConfig();
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*((int*) 0) = 0; // see https://github.com/esp8266/Arduino/issues/1494
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});
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#if I2C_SUPPORT
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settingsRegisterCommand(F("I2C.SCAN"), [](Embedis* e) {
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i2cScan();
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("I2C.CLEAR"), [](Embedis* e) {
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i2cClearBus();
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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#endif
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settingsRegisterCommand(F("FACTORY.RESET"), [](Embedis* e) {
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_settingsFactoryResetCommand();
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("GPIO"), [](Embedis* e) {
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if (e->argc < 2) {
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DEBUG_MSG_P(PSTR("-ERROR: Wrong arguments\n"));
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return;
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}
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int pin = String(e->argv[1]).toInt();
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//if (!gpioValid(pin)) {
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// DEBUG_MSG_P(PSTR("-ERROR: Invalid GPIO\n"));
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// return;
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//}
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if (e->argc > 2) {
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bool state = String(e->argv[2]).toInt() == 1;
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digitalWrite(pin, state);
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}
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DEBUG_MSG_P(PSTR("GPIO %d is %s\n"), pin, digitalRead(pin) == HIGH ? "HIGH" : "LOW");
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("HEAP"), [](Embedis* e) {
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DEBUG_MSG_P(PSTR("Free HEAP: %d bytes\n"), getFreeHeap());
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("HELP"), [](Embedis* e) {
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_settingsHelpCommand();
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("INFO"), [](Embedis* e) {
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info();
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wifiStatus();
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//StreamString s;
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//WiFi.printDiag(s);
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//DEBUG_MSG(s.c_str());
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("KEYS"), [](Embedis* e) {
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_settingsKeysCommand();
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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settingsRegisterCommand(F("RESET"), [](Embedis* e) {
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DEBUG_MSG_P(PSTR("+OK\n"));
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deferredReset(100, CUSTOM_RESET_TERMINAL);
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});
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settingsRegisterCommand(F("RESET.SAFE"), [](Embedis* e) {
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EEPROM.write(EEPROM_CRASH_COUNTER, SYSTEM_CHECK_MAX);
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DEBUG_MSG_P(PSTR("+OK\n"));
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deferredReset(100, CUSTOM_RESET_TERMINAL);
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});
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settingsRegisterCommand(F("UPTIME"), [](Embedis* e) {
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DEBUG_MSG_P(PSTR("Uptime: %d seconds\n"), getUptime());
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DEBUG_MSG_P(PSTR("+OK\n"));
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});
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}
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// -----------------------------------------------------------------------------
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// Key-value API
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// -----------------------------------------------------------------------------
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void moveSetting(const char * from, const char * to) {
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String value = getSetting(from);
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if (value.length() > 0) setSetting(to, value);
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delSetting(from);
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}
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template<typename T> String getSetting(const String& key, T defaultValue) {
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String value;
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if (!Embedis::get(key, value)) value = String(defaultValue);
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return value;
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}
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template<typename T> String getSetting(const String& key, unsigned int index, T defaultValue) {
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return getSetting(key + String(index), defaultValue);
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}
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String getSetting(const String& key) {
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return getSetting(key, "");
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}
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template<typename T> bool setSetting(const String& key, T value) {
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return Embedis::set(key, String(value));
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}
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template<typename T> bool setSetting(const String& key, unsigned int index, T value) {
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return setSetting(key + String(index), value);
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}
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bool delSetting(const String& key) {
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return Embedis::del(key);
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}
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bool delSetting(const String& key, unsigned int index) {
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return delSetting(key + String(index));
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}
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bool hasSetting(const String& key) {
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return getSetting(key).length() != 0;
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}
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bool hasSetting(const String& key, unsigned int index) {
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return getSetting(key, index, "").length() != 0;
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}
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void saveSettings() {
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#if not SETTINGS_AUTOSAVE
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_settings_save = true;
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#endif
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}
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void resetSettings() {
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_settingsFactoryResetCommand();
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}
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// -----------------------------------------------------------------------------
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// Settings
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// -----------------------------------------------------------------------------
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void settingsInject(void *data, size_t len) {
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_serial.inject((char *) data, len);
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}
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size_t settingsMaxSize() {
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size_t size = EEPROM_SIZE;
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if (size > SPI_FLASH_SEC_SIZE) size = SPI_FLASH_SEC_SIZE;
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size = (size + 3) & (~3);
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return size;
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}
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bool settingsRestoreJson(JsonObject& data) {
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const char* app = data["app"];
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if (strcmp(app, APP_NAME) != 0) return false;
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for (unsigned int i = EEPROM_DATA_END; i < SPI_FLASH_SEC_SIZE; i++) {
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EEPROM.write(i, 0xFF);
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}
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for (auto element : data) {
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if (strcmp(element.key, "app") == 0) continue;
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if (strcmp(element.key, "version") == 0) continue;
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setSetting(element.key, element.value.as<char*>());
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}
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saveSettings();
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DEBUG_MSG_P(PSTR("[SETTINGS] Settings restored successfully\n"));
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return true;
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}
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void settingsGetJson(JsonObject& root) {
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// Get sorted list of keys
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std::vector<String> keys = _settingsKeys();
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// Add the key-values to the json object
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for (unsigned int i=0; i<keys.size(); i++) {
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String value = getSetting(keys[i]);
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root[keys[i]] = value;
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}
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}
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void settingsRegisterCommand(const String& name, void (*call)(Embedis*)) {
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Embedis::command(name, call);
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};
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// -----------------------------------------------------------------------------
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// Initialization
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// -----------------------------------------------------------------------------
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void settingsSetup() {
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EEPROM.begin(SPI_FLASH_SEC_SIZE);
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_serial.callback([](uint8_t ch) {
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#if TELNET_SUPPORT
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telnetWrite(ch);
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#endif
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#if DEBUG_SERIAL_SUPPORT
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DEBUG_PORT.write(ch);
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#endif
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});
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Embedis::dictionary( F("EEPROM"),
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SPI_FLASH_SEC_SIZE,
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[](size_t pos) -> char { return EEPROM.read(pos); },
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[](size_t pos, char value) { EEPROM.write(pos, value); },
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#if SETTINGS_AUTOSAVE
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[]() { _settings_save = true; }
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#else
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[]() {}
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#endif
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);
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_settingsInitCommands();
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#if TERMINAL_SUPPORT
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#if SERIAL_RX_ENABLED
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SERIAL_RX_PORT.begin(SERIAL_RX_BAUDRATE);
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#endif // SERIAL_RX_ENABLED
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#endif // TERMINAL_SUPPORT
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// Register loop
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espurnaRegisterLoop(settingsLoop);
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}
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void settingsLoop() {
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if (_settings_save) {
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EEPROM.commit();
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_settings_save = false;
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}
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#if TERMINAL_SUPPORT
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#if DEBUG_SERIAL_SUPPORT
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while (DEBUG_PORT.available()) {
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_serial.inject(DEBUG_PORT.read());
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}
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#endif
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embedis.process();
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#if SERIAL_RX_ENABLED
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while (SERIAL_RX_PORT.available() > 0) {
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char rc = Serial.read();
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_serial_rx_buffer[_serial_rx_pointer++] = rc;
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if ((_serial_rx_pointer == TERMINAL_BUFFER_SIZE) || (rc == 10)) {
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settingsInject(_serial_rx_buffer, (size_t) _serial_rx_pointer);
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_serial_rx_pointer = 0;
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}
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}
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#endif // SERIAL_RX_ENABLED
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#endif // TERMINAL_SUPPORT
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}
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